Updated heat capacities of \(^{161-164}\)Dy nuclei

Huong Le, Dong Xuan Tran, N. Nguyen, Minh Hien Nguyen, Cong Duy Tran, Hung Nguyen
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Abstract

This work presents the updated heat capacities of \(^{161-164}\)Dy nuclei in the nuclear temperature region from 0 to 1 MeV. The updated heat capacities are obtained within the canonical ensemble method making use of the most recent and recommended experimental nuclear level density (NLD) data together with those calculated within the back-shifted Fermi gas (BSFG) model with energy-dependent parameters. By comparing the updated heat capacities with the un-updated ones, which are obtained by using the old experimental NLD data and the BSFG with energy-independent parameters, we found that the updated and un-updated heat capacities are almost identical at low temperature, but differ from each others at high temperature. This discrepancy can be interpreted by the damping of nuclear shell structure with increasing the excitation energy. Besides, we observe that the S-shape in the updated heat capacities is much more pronounced in even-even Dy isotopes than in even-odd ones, whereas the un-updated heat capacities do not clearly exhibit this S-shape. Therefore, the updated heat capacities should provide a more convincing evidence for the signature of pairing phase transition in nuclear systems.
更新了\(^{161-164}\) Dy原子核的热容
本文提出了0 ~ 1mev核温度范围内\(^{161-164}\) Dy核的最新热容。更新的热容是在正则系综方法中获得的,该方法使用了最新的和推荐的实验核能级密度(NLD)数据,以及在具有能量依赖参数的后移费米气体(BSFG)模型中计算的数据。利用旧的NLD实验数据和具有能量无关参数的BSFG得到的更新后的热容与未更新后的热容进行比较,发现更新后的热容与未更新后的热容在低温时几乎相同,但在高温时却有所不同。这种差异可以用核壳结构随着激发能的增加而产生的阻尼来解释。此外,我们观察到更新后的双偶Dy同位素的s型比偶奇Dy同位素的s型更为明显,而未更新的热容则不明显地表现出这种s型。因此,更新后的热容将为核系统中配对相变的表征提供更有说服力的证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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